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527 lines
14 KiB
527 lines
14 KiB
/*
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This file is part of cpp-ethereum.
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cpp-ethereum is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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cpp-ethereum is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with cpp-ethereum. If not, see <http://www.gnu.org/licenses/>.
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*/
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/** @file ClientBase.cpp
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* @author Gav Wood <i@gavwood.com>
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* @author Marek Kotewicz <marek@ethdev.com>
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* @date 2015
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*/
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#include "ClientBase.h"
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#include <libdevcore/StructuredLogger.h>
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#include "BlockChain.h"
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#include "Executive.h"
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#include "State.h"
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using namespace std;
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using namespace dev;
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using namespace dev::eth;
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const char* WatchChannel::name() { return EthBlue "ℹ" EthWhite " "; }
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const char* WorkInChannel::name() { return EthOrange "⚒" EthGreen "▬▶"; }
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const char* WorkOutChannel::name() { return EthOrange "⚒" EthNavy "◀▬"; }
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const char* WorkChannel::name() { return EthOrange "⚒" EthWhite " "; }
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State ClientBase::asOf(BlockNumber _h) const
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{
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if (_h == PendingBlock)
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return postMine();
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else if (_h == LatestBlock)
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return preMine();
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return asOf(bc().numberHash(_h));
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}
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pair<h256, Address> ClientBase::submitTransaction(TransactionSkeleton const& _t, Secret const& _secret)
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{
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prepareForTransaction();
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TransactionSkeleton ts(_t);
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ts.from = toAddress(_secret);
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if (_t.nonce == UndefinedU256)
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ts.nonce = max<u256>(postMine().transactionsFrom(ts.from), m_tq.maxNonce(ts.from));
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Transaction t(ts, _secret);
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m_tq.import(t.rlp());
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StructuredLogger::transactionReceived(t.sha3().abridged(), t.sender().abridged());
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cnote << "New transaction " << t;
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return make_pair(t.sha3(), toAddress(ts.from, ts.nonce));
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}
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// TODO: remove try/catch, allow exceptions
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ExecutionResult ClientBase::call(Address const& _from, u256 _value, Address _dest, bytes const& _data, u256 _gas, u256 _gasPrice, BlockNumber _blockNumber, FudgeFactor _ff)
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{
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ExecutionResult ret;
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try
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{
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State temp = asOf(_blockNumber);
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u256 n = temp.transactionsFrom(_from);
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Transaction t(_value, _gasPrice, _gas, _dest, _data, n);
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t.forceSender(_from);
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if (_ff == FudgeFactor::Lenient)
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temp.addBalance(_from, (u256)(t.gas() * t.gasPrice() + t.value()));
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ret = temp.execute(bc().lastHashes(), t, Permanence::Reverted);
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}
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catch (...)
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{
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// TODO: Some sort of notification of failure.
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}
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return ret;
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}
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ExecutionResult ClientBase::create(Address const& _from, u256 _value, bytes const& _data, u256 _gas, u256 _gasPrice, BlockNumber _blockNumber, FudgeFactor _ff)
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{
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ExecutionResult ret;
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try
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{
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State temp = asOf(_blockNumber);
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u256 n = temp.transactionsFrom(_from);
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// cdebug << "Nonce at " << toAddress(_secret) << " pre:" << m_preMine.transactionsFrom(toAddress(_secret)) << " post:" << m_postMine.transactionsFrom(toAddress(_secret));
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Transaction t(_value, _gasPrice, _gas, _data, n);
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t.forceSender(_from);
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if (_ff == FudgeFactor::Lenient)
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temp.addBalance(_from, (u256)(t.gasRequired() * t.gasPrice() + t.value()));
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ret = temp.execute(bc().lastHashes(), t, Permanence::Reverted);
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}
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catch (...)
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{
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// TODO: Some sort of notification of failure.
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}
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return ret;
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}
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ImportResult ClientBase::injectBlock(bytes const& _block)
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{
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return bc().attemptImport(_block, preMine().db()).first;
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}
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u256 ClientBase::balanceAt(Address _a, BlockNumber _block) const
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{
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return asOf(_block).balance(_a);
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}
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u256 ClientBase::countAt(Address _a, BlockNumber _block) const
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{
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return asOf(_block).transactionsFrom(_a);
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}
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u256 ClientBase::stateAt(Address _a, u256 _l, BlockNumber _block) const
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{
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return asOf(_block).storage(_a, _l);
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}
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bytes ClientBase::codeAt(Address _a, BlockNumber _block) const
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{
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return asOf(_block).code(_a);
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}
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h256 ClientBase::codeHashAt(Address _a, BlockNumber _block) const
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{
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return asOf(_block).codeHash(_a);
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}
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unordered_map<u256, u256> ClientBase::storageAt(Address _a, BlockNumber _block) const
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{
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return asOf(_block).storage(_a);
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}
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// TODO: remove try/catch, allow exceptions
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LocalisedLogEntries ClientBase::logs(unsigned _watchId) const
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{
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LogFilter f;
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try
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{
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Guard l(x_filtersWatches);
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f = m_filters.at(m_watches.at(_watchId).id).filter;
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}
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catch (...)
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{
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return LocalisedLogEntries();
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}
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return logs(f);
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}
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LocalisedLogEntries ClientBase::logs(LogFilter const& _f) const
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{
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LocalisedLogEntries ret;
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unsigned begin = min(bc().number() + 1, (unsigned)numberFromHash(_f.latest()));
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unsigned end = min(bc().number(), min(begin, (unsigned)numberFromHash(_f.earliest())));
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// Handle pending transactions differently as they're not on the block chain.
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if (begin > bc().number())
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{
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State temp = postMine();
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for (unsigned i = 0; i < temp.pending().size(); ++i)
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{
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// Might have a transaction that contains a matching log.
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TransactionReceipt const& tr = temp.receipt(i);
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LogEntries le = _f.matches(tr);
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for (unsigned j = 0; j < le.size(); ++j)
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ret.insert(ret.begin(), LocalisedLogEntry(le[j]));
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}
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begin = bc().number();
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}
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// Handle reverted blocks
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// There are not so many, so let's iterate over them
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h256s blocks;
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h256 ancestor;
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unsigned ancestorIndex;
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tie(blocks, ancestor, ancestorIndex) = bc().treeRoute(_f.earliest(), _f.latest(), false);
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for (size_t i = 0; i < ancestorIndex; i++)
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prependLogsFromBlock(_f, blocks[i], BlockPolarity::Dead, ret);
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// cause end is our earliest block, let's compare it with our ancestor
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// if ancestor is smaller let's move our end to it
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// example:
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//
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// 3b -> 2b -> 1b
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// -> g
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// 3a -> 2a -> 1a
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//
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// if earliest is at 2a and latest is a 3b, coverting them to numbers
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// will give us pair (2, 3)
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// and we want to get all logs from 1 (ancestor + 1) to 3
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// so we have to move 2a to g + 1
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end = min(end, (unsigned)numberFromHash(ancestor) + 1);
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// Handle blocks from main chain
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set<unsigned> matchingBlocks;
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if (!_f.isRangeFilter())
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for (auto const& i: _f.bloomPossibilities())
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for (auto u: bc().withBlockBloom(i, end, begin))
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matchingBlocks.insert(u);
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else
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// if it is a range filter, we want to get all logs from all blocks in given range
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for (unsigned i = end; i <= begin; i++)
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matchingBlocks.insert(i);
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for (auto n: matchingBlocks)
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prependLogsFromBlock(_f, bc().numberHash(n), BlockPolarity::Live, ret);
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reverse(ret.begin(), ret.end());
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return ret;
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}
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void ClientBase::prependLogsFromBlock(LogFilter const& _f, h256 const& _blockHash, BlockPolarity _polarity, LocalisedLogEntries& io_logs) const
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{
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auto receipts = bc().receipts(_blockHash).receipts;
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for (size_t i = 0; i < receipts.size(); i++)
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{
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TransactionReceipt receipt = receipts[i];
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auto th = transaction(_blockHash, i).sha3();
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LogEntries le = _f.matches(receipt);
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for (unsigned j = 0; j < le.size(); ++j)
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io_logs.insert(io_logs.begin(), LocalisedLogEntry(le[j], _blockHash, (BlockNumber)bc().number(_blockHash), th, i, 0, _polarity));
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}
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}
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unsigned ClientBase::installWatch(LogFilter const& _f, Reaping _r)
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{
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h256 h = _f.sha3();
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{
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Guard l(x_filtersWatches);
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if (!m_filters.count(h))
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{
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cwatch << "FFF" << _f << h;
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m_filters.insert(make_pair(h, _f));
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}
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}
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return installWatch(h, _r);
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}
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unsigned ClientBase::installWatch(h256 _h, Reaping _r)
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{
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unsigned ret;
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{
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Guard l(x_filtersWatches);
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ret = m_watches.size() ? m_watches.rbegin()->first + 1 : 0;
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m_watches[ret] = ClientWatch(_h, _r);
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cwatch << "+++" << ret << _h;
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}
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#if INITIAL_STATE_AS_CHANGES
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auto ch = logs(ret);
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if (ch.empty())
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ch.push_back(InitialChange);
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{
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Guard l(x_filtersWatches);
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swap(m_watches[ret].changes, ch);
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}
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#endif
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return ret;
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}
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bool ClientBase::uninstallWatch(unsigned _i)
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{
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cwatch << "XXX" << _i;
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Guard l(x_filtersWatches);
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auto it = m_watches.find(_i);
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if (it == m_watches.end())
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return false;
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auto id = it->second.id;
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m_watches.erase(it);
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auto fit = m_filters.find(id);
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if (fit != m_filters.end())
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if (!--fit->second.refCount)
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{
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cwatch << "*X*" << fit->first << ":" << fit->second.filter;
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m_filters.erase(fit);
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}
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return true;
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}
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LocalisedLogEntries ClientBase::peekWatch(unsigned _watchId) const
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{
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Guard l(x_filtersWatches);
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// cwatch << "peekWatch" << _watchId;
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auto& w = m_watches.at(_watchId);
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// cwatch << "lastPoll updated to " << chrono::duration_cast<chrono::seconds>(chrono::system_clock::now().time_since_epoch()).count();
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if (w.lastPoll != chrono::system_clock::time_point::max())
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w.lastPoll = chrono::system_clock::now();
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return w.changes;
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}
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LocalisedLogEntries ClientBase::checkWatch(unsigned _watchId)
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{
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Guard l(x_filtersWatches);
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LocalisedLogEntries ret;
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// cwatch << "checkWatch" << _watchId;
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auto& w = m_watches.at(_watchId);
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// cwatch << "lastPoll updated to " << chrono::duration_cast<chrono::seconds>(chrono::system_clock::now().time_since_epoch()).count();
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std::swap(ret, w.changes);
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if (w.lastPoll != chrono::system_clock::time_point::max())
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w.lastPoll = chrono::system_clock::now();
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return ret;
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}
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BlockInfo ClientBase::blockInfo(h256 _hash) const
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{
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if (_hash == PendingBlockHash)
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return preMine().info();
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return BlockInfo(bc().block(_hash));
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}
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BlockDetails ClientBase::blockDetails(h256 _hash) const
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{
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return bc().details(_hash);
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}
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Transaction ClientBase::transaction(h256 _transactionHash) const
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{
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return Transaction(bc().transaction(_transactionHash), CheckTransaction::Cheap);
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}
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LocalisedTransaction ClientBase::localisedTransaction(h256 const& _transactionHash) const
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{
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std::pair<h256, unsigned> tl = bc().transactionLocation(_transactionHash);
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return localisedTransaction(tl.first, tl.second);
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}
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Transaction ClientBase::transaction(h256 _blockHash, unsigned _i) const
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{
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auto bl = bc().block(_blockHash);
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RLP b(bl);
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if (_i < b[1].itemCount())
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return Transaction(b[1][_i].data(), CheckTransaction::Cheap);
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else
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return Transaction();
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}
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LocalisedTransaction ClientBase::localisedTransaction(h256 const& _blockHash, unsigned _i) const
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{
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Transaction t = Transaction(bc().transaction(_blockHash, _i), CheckTransaction::Cheap);
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return LocalisedTransaction(t, _blockHash, _i, numberFromHash(_blockHash));
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}
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TransactionReceipt ClientBase::transactionReceipt(h256 const& _transactionHash) const
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{
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return bc().transactionReceipt(_transactionHash);
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}
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LocalisedTransactionReceipt ClientBase::localisedTransactionReceipt(h256 const& _transactionHash) const
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{
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std::pair<h256, unsigned> tl = bc().transactionLocation(_transactionHash);
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Transaction t = Transaction(bc().transaction(tl.first, tl.second), CheckTransaction::Cheap);
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TransactionReceipt tr = bc().transactionReceipt(tl.first, tl.second);
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return LocalisedTransactionReceipt(
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tr,
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t.sha3(),
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tl.first,
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numberFromHash(tl.first),
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tl.second,
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toAddress(t.from(), t.nonce()));
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}
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pair<h256, unsigned> ClientBase::transactionLocation(h256 const& _transactionHash) const
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{
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return bc().transactionLocation(_transactionHash);
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}
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Transactions ClientBase::transactions(h256 _blockHash) const
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{
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auto bl = bc().block(_blockHash);
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RLP b(bl);
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Transactions res;
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for (unsigned i = 0; i < b[1].itemCount(); i++)
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res.emplace_back(b[1][i].data(), CheckTransaction::Cheap);
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return res;
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}
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TransactionHashes ClientBase::transactionHashes(h256 _blockHash) const
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{
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return bc().transactionHashes(_blockHash);
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}
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BlockInfo ClientBase::uncle(h256 _blockHash, unsigned _i) const
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{
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auto bl = bc().block(_blockHash);
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RLP b(bl);
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if (_i < b[2].itemCount())
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return BlockInfo(b[2][_i].data(), CheckNothing, h256(), HeaderData);
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else
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return BlockInfo();
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}
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UncleHashes ClientBase::uncleHashes(h256 _blockHash) const
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{
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return bc().uncleHashes(_blockHash);
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}
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unsigned ClientBase::transactionCount(h256 _blockHash) const
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{
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auto bl = bc().block(_blockHash);
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RLP b(bl);
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return b[1].itemCount();
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}
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unsigned ClientBase::uncleCount(h256 _blockHash) const
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{
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auto bl = bc().block(_blockHash);
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RLP b(bl);
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return b[2].itemCount();
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}
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unsigned ClientBase::number() const
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{
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return bc().number();
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}
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Transactions ClientBase::pending() const
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{
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return postMine().pending();
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}
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h256s ClientBase::pendingHashes() const
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{
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return h256s() + postMine().pendingHashes();
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}
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StateDiff ClientBase::diff(unsigned _txi, h256 _block) const
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{
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State st = asOf(_block);
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return st.fromPending(_txi).diff(st.fromPending(_txi + 1), true);
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}
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StateDiff ClientBase::diff(unsigned _txi, BlockNumber _block) const
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{
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State st = asOf(_block);
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return st.fromPending(_txi).diff(st.fromPending(_txi + 1), true);
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}
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Addresses ClientBase::addresses(BlockNumber _block) const
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{
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Addresses ret;
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for (auto const& i: asOf(_block).addresses())
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ret.push_back(i.first);
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return ret;
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}
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u256 ClientBase::gasLimitRemaining() const
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{
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return postMine().gasLimitRemaining();
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}
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Address ClientBase::address() const
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{
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return preMine().address();
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}
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h256 ClientBase::hashFromNumber(BlockNumber _number) const
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{
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if (_number == PendingBlock)
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return h256();
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if (_number == LatestBlock)
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return bc().currentHash();
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return bc().numberHash(_number);
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}
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BlockNumber ClientBase::numberFromHash(h256 _blockHash) const
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{
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if (_blockHash == PendingBlockHash)
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return bc().number() + 1;
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else if (_blockHash == LatestBlockHash)
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return bc().number();
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else if (_blockHash == EarliestBlockHash)
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return 0;
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return bc().number(_blockHash);
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}
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int ClientBase::compareBlockHashes(h256 _h1, h256 _h2) const
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{
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BlockNumber n1 = numberFromHash(_h1);
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BlockNumber n2 = numberFromHash(_h2);
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if (n1 > n2) {
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return 1;
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} else if (n1 == n2) {
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return 0;
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}
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return -1;
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}
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bool ClientBase::isKnown(h256 const& _hash) const
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{
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return _hash == PendingBlockHash ||
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_hash == LatestBlockHash ||
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_hash == EarliestBlockHash ||
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bc().isKnown(_hash);
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}
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bool ClientBase::isKnown(BlockNumber _block) const
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{
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return _block == PendingBlock ||
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_block == LatestBlock ||
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bc().numberHash(_block) != h256();
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}
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bool ClientBase::isKnownTransaction(h256 const& _transactionHash) const
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{
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return bc().isKnownTransaction(_transactionHash);
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}
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bool ClientBase::isKnownTransaction(h256 const& _blockHash, unsigned _i) const
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{
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return isKnown(_blockHash) && bc().transactions().size() > _i;
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}
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|